The line integral of each vector field (in blue) along the oriented path (in red) is positive, negative, or zero is shown in the picture
Explanation:
A line integral is the integral where the function to be integrated is evaluated along a curve.
For example, take a look at figure a which is the Line integral of a scalar field. If C is given by [tex]x=x(t), y=y(t),t \epsilon[a , b][/tex] ,
then [tex]\int\limits_ c {f(x,y)} \, ds = \int\limits^b_a {f(x(t),y(t))} \, ds[/tex]
where [tex]ds = \sqrt{\frac{dx}{dt} ^{2} + \frac{dy}{dt} ^{2} }[/tex]
As the area of the curved vertical curtain along that curve under the surface [tex]z= f (x , y)[/tex]
The next example is figure b
Let [tex]F(x,y,z) = M\^{i}+N\^{j}+P\^{k}[/tex] where [tex]M=M(x,y,z), N=N(x,y,z)[/tex] and [tex]P=P(x,y,z)[/tex]
Then [tex]dr=dx\^{i}+dy\^{j}+dz\^{k}[/tex] and [tex]W= \int\limits^._C {F. \, dr[/tex]that calculates the work done in moving a particle over curve C with force F. This is shown in figure b.)a
Therefore the line integral of each vector field (in blue) along the oriented path (in red) is positive, negative, or zero can be determined as shown in figure below
Learn more about the line integral https://brainly.com/question/13035260
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